Altered nerve excitability properties in established diabetic neuropathy

doi:10.1093/brain/awh476

Brain Advance Access originally published online on March 9, 2005
Brain 2005 128(5):1178-1187; doi:10.1093/brain/awh476

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Altered nerve excitability properties in established diabetic neuropathy

Arun V. Krishnan and Matthew C. Kiernan

Institute of Neurological Sciences, Prince of Wales Hospital; Prince of Wales Medical Research Institute and Prince of Wales Clinical School, University of New South Wales, Randwick, Sydney, NSW, Australia

Correspondence to: Dr Matthew Kiernan, Prince of Wales Medical Research Institute, Barker Street, Randwick, Sydney, NSW 2031, Australia E-mail: M.kiernan{at}unsw.edu.au

The underlying cause of diabetic neuropathy remains unclear,although pathological studies have suggested an ischaemic basisrelated to microangiopathy, possibly mediated through effectson the energy-dependent Na⁺/K⁺ pump. To investigate the pathophysiologyof diabetic neuropathy, axonal excitability techniques wereundertaken in 20 diabetic patients with neuropathy severitygraded through a combination of quantitative sensory testing(QST) using a vibratory stimulus, assessment of symptom severityusing the Total Neuropathy Symptom Score (T-NSS) and measurementof glycosylated haemoglobin as a marker of disease control.To assess axonal excitability, compound muscle action potentialswere recorded at rest from abductor pollicis brevis followingstimulation of the median nerve, and stimulus–responsebehaviour, threshold electrotonus, a current–thresholdrelationship and the recovery of excitability were recordedin each patient. All patients had established neuropathy, withabnormalities of T-NSS present in all patients and QST abnormalitiespresent in 65%. Compared with controls, diabetic neuropathypatients had significant reduction in maximal CMAP amplitude(P < 0.0005), accompanied by a ‘fanning in’ ofthreshold electrotonus. In addition, the strength–durationtime constant was decreased in diabetic neuropathy patientsand recovery cycles were altered with reductions in refractoriness,the duration of the relative refractory period, superexcitabilityand subexcitability. It is proposed that while the changes inthreshold electrotonus with supportive findings in the current–thresholdrelationship are consistent with axonal depolarization, possiblymediated by a decrease in Na⁺/K⁺ pump activity, the alterationsin the recovery cycle of excitability could be explained onthe basis of a smaller action potential, reflecting a limitationon the nodal driving current imposed by a reduction in Na⁺ conductances.

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